Direct integration system

ABSTRACT

A method implemented onto a computer device for unification of elemental sequences of syntaxes and graphical user interfaces into a unified syntax direct interface object based contemporary file state; also, comprising Direct interface integration systems and deployment (or equivalent) of electronic syntaxes and/or representations (visual based or other); and unification of electronic navigation systems and transaction based payment systems as well as interactive graphical user interfaces; Further comprising (but not limited to) integrated user controller interface modules with data input and manipulation methods and processes.

TECHNICAL FIELD

A unique system whereby conventional graphical user interfaces (accessible by way of a clock or entering of certain syntax to bring the result of taking the user to a desired location) are replaced by a direct, less complicated approach referred to herein as a “Direct Integration System” and “new payment system”. This includes interactive graphical user interfaces, navigation methods and integrated user controller interface modules with data input and manipulation methods and processes including but not limited to biometrics.

BACKGROUND

The web address bar is one of (if not) the most repute graphical user interfaces of its kind, and is at the heart of virtually all available web browsers to date; the majority of web users rely on this function whenever they wish to visit a desirable website, the most commonly evident scenario being where an end user is required to type in a web address in order to access a desired web page; bearing in mind that this task is indefinitely required with the exceptions comprising an end user visiting a pre-visited web page that has been saved in ‘favourites’, bookmarked’, or set a as their ‘homepage’ or other equivalents; the point being that unless a web-page is pre visited, the web user is indefinitely required to perform the compulsory task of typing in the web address for the desired website.

The initial problem becomes apparent when a web user performs the task of typing in a web address corresponding to the location of the desired web page, where the address is not necessarily visited prior to this task; The typed address of a desired website would appear as follows—

[http://www.desireddesktop.co.uk/2007/home]—Outcome of the task performed by the end user.

The illustration above shows the desired web address typed by the end user; the address consists of a combination of letters, numbers and characters, all of which make up the elemental sequence of a combined syntax; which would be expected to be typed into the web address bar found on a typical web browser; all in all, this particular syntax is known as a “Uniform Resource Locator”, “URL” for short.

-   -   http://www.desireddesktop.co.uk/2007/home—{Uniform resource         locator}     -   [Protocol-Colon-Hostname-Port Number-Path name]

Although the quantity of values in “URLs” can vary; a) the “URL” illustrated in example “part A” above happens to consist of 41 values in total; b) the values illustrated in example “part B” consisting of 5 elements; b) a protocol (prefix), colon, hostname, port number and a path name. From the description thus far, it becomes very clear that performing the task of inputting a web address can be very time consuming and somewhat inevitable for the end user.

It is not surprising that one could argue that it is moderately difficult to recognise the flaws of not only the practicality and necessity of the web address bar (graphical user interface) with regards to the idea of effectively ‘typing’ in a web address into the graphical user interface in order to visit a potentially desired desktop of a website; b) but also the idea of essentially performing the task of typing in a web address corresponding to a desired desktop.

The major causes of concern with regards to the impracticalities in relation to typing, the typed in, the necessity of typing, as well as the outcome of typing in a potential established web address; of which is anticipated by the end user, it becomes clear that reputable end users performing such tasks are faced with probable setbacks, including the following:

Typing in a web address can be a daunting task for conventional end users, especially when they are aware that the desired unsaved web page they wish to access has a rather elongated web address, where mistyping and misspelling become moderately frequent and effects some much more than others; especially those who suffer from reading and writing difficulties, making it a rather impractical task altogether.

Problems with a typed in web address are mainly noticed from an end user's perspective, in which they perceive the apparent (typed in address) as a sequence of words, characters, letters and numbers and nothing but; despite acknowledging the intent of the web address e.g. a) the textual syntax located within a web address bar in “part A” looks rather unappealing despite being an essential part of the end users online experience with regards to making visiting electronic documents possible.

Typing in a web address is necessary for end users wishing to visit an unsaved web page, and relate to common scenarios where no information of a web address is saved onto the volatile memory of a computing device such as a web browser for example; a) web typical web browser contains various methods dedicated to saving a web address, some browsers include a favourites option where end users can save visited web pages they are in favour of, thumbnails are found on one or more of today's browsers and electronic documents and necessitate end users to type in a web address or other text syntax equivalents for this means to become usable by the end user.

The result of an end user typing in an established web address can often lead to problems with regards to determining whether or not the typed in web address is identical to the syntax of an absolute or relative uniform resource locator which corresponds to a desired web page.

-   -   C) http://www.desireddesktop.co.uk/2007/home {all values are         present}     -   D) http://www.desirdwbpge.co.uk/2007/home {Values “e”, “e” and         “a” are absent}

The problem persists where c) the typed in web address appears to look correct and d) which has one or more values absent from the combined syntax illustrated in example “D”; this usually becomes evident when the end user tries to process the information within the web address bar of a browser, where the end user is consequently directed to an irrelevant or undesired web page.

The user most likely to be affected by the concept of typing in a web address or other equivalents with regards to typing, are those with reading and writing difficulties i.e. c) people who struggle to read, may misinterpret a potentially established web address and as a result, are indefinitely restricted from accessing a desired desktop and, those with writing difficulties may be postpone to typing in a web address meaning that such potential end users are indefinitely restricted from accessing their desired desktop.

Such problems could simultaneously cause potential end users to indefinitely limit the quantity of traffic they desire d) with regards to disabled end users being in one or more ways restricted for visiting a potential host's website as a result of the present invention not being used. d) For end users, it becomes more of a challenging task for web users to acknowledge and memorize Uniform Resource Locators for different companies and commodities.

Compared to existing solutions, the present invention is a new advantage and solution for directly and instantaneously integrating an interface directly onto a software related computer device or equivalent (either internal or external). The following methods relating to the present invention can be achieved without the current intermediaries (icons and the like) being used subsequently; thus allowing the end result of the present invention (direct interface system) to be achieved.

As such, technologies will therefore allow the present invention to be applied directly onto such system based software (or other) related devices and operating systems; using the latest in coding such as php, html and all other coding languages, as well as the current application software development programs and tools, of which can also be used in conjunction with the development and processes with regards the present invention of which is being claimed.

A method is described where the elemental sequences of a conventional syntax or user interface object are merged into a solitary contemporary (i.e. visual) file format; a unified syntax or direct interface object is generated at the end of the unification process. Unified syntax or user interface object can be used for their original purpose; in addition to a vast quantity of beneficiaries' to the rightful (unified electronic syntax or direct interface objects) end users.

This method means that syntax, representations (such as icons) can be unified into visual states, which means that users are not limited to syntax values or static based icon representations (and the like); allowing the end users to identify a given electronic syntax or icons through visual representation (direct interface objects). This may also be used as an alternative to textually promoting services through visual means, which will advantage users of the system's syntax and direct interface objects as a result.

The direct interface systems creation and integration method saves the aggravation of manual data input of elongated syntaxes; in which there is always room for unanticipated error with regards to miss-spelling and/or absent values, moreover, this process allows for restricted (i.e. dyslexic) users to access desired locations through visual means without the need of path and short cut based icons. In addition to this system, an inimitable algorithm allows for inconsistencies to result in anticipated (and desirable) outcomes of all potential clients.

Some of the main benefits of this method include easing practicality of potential users visiting desktop's by minimising or abolishing the necessity of inputting or clicking (or other gesture based options) onto essential values and/or icons in order to visit and requested desired location (i.e. desktop), consequently.

Furthermore, this method is fit for technological (hyper media based multi usage) industry standards and has the prospective advantage intended for working in compliance with all technological and electronic based syntax or icons services and businesses, such as telecommunications, online networking, and e-business, electronic databases as just a few preliminary examples.

A further method is described where a conventional electronic navigation system and an active graphical user interface object (or objects) become unified; the unification process can be achieved and performed on a computing device; once this process is complete, the two particulars become unified and obtainable as a solitary format consisting of one or more segments. The created format will be novel and perceived as an interactive user based navigation system (the end result).

A further method is described where the direct integration systems “D.I.S” being claimed as an alternative conventional operation systems using traditional computer icons as a mean of accessing software based applications and instead, the visually represented graphical user interfaces i.e. direct interface objects being readily available (but not limited to this) simultaneously and accessible without the necessity of having to use an icon to access a programme interface.

The convenience of using this unique system as an alternative method to using the conventional icons; of which can be known as direct interfaces integration D.I.S—(direct integration systems); making the overall accessibility of system based applications (or equivalent) faster and more efficient and most importantly direct.

The technical field of which the present invention generally relates is a scientific, technological and computer based. Including the adding and assisting of reading and writing based (manual data input and query based) technological platforms.

The present invention relates to generic syntax with regards to the unification of conventional syntax and interfaces into subsequent established solitary contemporary visual file formats and, more specifically, methods for implementing unified syntax and interfaces onto desired application programme interfaces such as web based browser networks. The present invention relates to hypermedia based interactivity and navigation methods with regards to electronic interface processes through means of systematically electronic value/non-value (or alike) based navigation activities. The present invention allows to solve the problems in most conventional methods; Most navigational value based systems are typically found on web based compliances and client based networking interfaces, such as web citations consisting of a multitude of electronic pages; these navigation systems are most certainly essential with regards to the clients' transcending from one electronic page (or equivalent) to another. It becomes apparent that electronic navigation systems act as a technological gateway, by means of client (end users) aspirations and/or necessity for transcending from one electronic page (or alike) to another.

Current navigation systems conventionally used are mainly static, and are reputable for having a typical purpose for electronic excelling and little else or minimal alternative attributes to say the least, for the client and/or for the base location/s of the systems functionality.

The main argument of the traditional value navigation system is that it is mainly consistent of characters, letters, numbers and little else, apart from its active properties making it possible for clients to effectively “navigate” from one electronic location to another.

Preliminary Example

-   -   Exemplary Electronic navigation Part A) Pages: 1 2 3 4 5 . . . a         b c d e . . .     -   Exemplary Electronic navigation Part B) Pages: 1 2 3 4 5 . . . a         b c d e . . . y

The above examples both show how a client may transcend from one electronic location to another; Part A shows that the client is on page 1 of the alphanumerical value navigation system of a conventional interface.

Part B of the example shows the same alphanumerical value navigation system as shown in part A. it shows that the client has transcended from page 1 to page 5 of the conventional interface, relating to the client's desired aspiration of accessing an alternate page.

These examples show a typical process of transcending from one page to another with the typical client using a navigation system containing alphanumerical values, in a rather simplistic and straightforward scenario. This makes carrying out and performing tasks on/via electronic devices to look and appear as though you are engaging with the i.e. visual representation of the item/s displayed such as would be the case in real life situations; such as preparing, engaging, interacting and performing necessary tasks to fulfil the user's experience best and realistically potential possible when using this system, including all stages of user interfaces relating to interacting with (but not limited to) education/work/home//office based utilities on a display screen.

Some examples of this can include (but not limited to) user (users) having a virtual office, including all hardware and the like that you would find in any home/office based or networking environment which can be placed and manipulated to suit the users virtual predilections i.e. the virtual printer can be moved from left to right hand side on the virtual desk and so on, papers can be left, put on the desk and saved for next day usage, when the phone rings the virtual phone can look as is ringing, vibrating etc. and when i.e. the user touches or clicks on the phone icon which is not limited to any phone type, the virtual desk top will allow you to answer the phone without tangibly answering as the technology will allow for the connection of the phone line to be established, and can be set to any dimension (albeit present or future) 2d, 3d; the option to display the keyboard which could be fully usable on the monitor/PC/other/virtual desktop.

Representations of conventionally used hardware/software based utilities being readily (but not limited to) available on a display devices (or the like—via an interactive visual representations of the user interfaces.

The problems and limitations and others are addressed by the following invention, which can be understood and comprehended by referring to the claims, specifications, drawings as well as other sources of relevance.

The present invention uses a variation of processes for unifying generic syntax (i.e. absolute or relative Uniform Resource Locators and computer, phone and tablet based icons) into desirable solitary contemporary visual file formats and also uses a variation of processes for unifying collaborative graphical user interfaces with electronic value navigation systems.

A computer based facility which provides the platform for a broad range of retailers and vendors to sell goods in one basket. Offering a refreshing experience that is utilized to make shopping easy acts as an intermediate between merchant sites and users, under one virtual roof, enabling the user to browse and shop on the many shops/shopping websites/merchant sites enabling the users to browse and purchase goods or services. Enabling customers to add purchases to just one basket without the need to pay for separate transactions—The ‘one basket payment’ takes the hassle and inconvenience away from the user so that only ‘one basket transaction payment’ is made for multiple purchases.

It allows the online end user to purchase items or services from the merchant sites shop or business, giving users direct access to multiple shops and businesses where users will be able to find everything they are looking for and then be able to buy directly from the website itself. Also; User's favourite stores and brands will be available to choose from. The first online shopping mall to give you the breadth of retailers and services a customer would need under one roof; simply ‘shopping made easy’.

The user is able to hop from shop to shop and add items to the unique ‘one basket-one basket payment system; the service may either forward the user's payment information to the merchant's system to enable the merchant to charge the customer, or may charge the user on behalf of the merchant.

SUMMARY

This invention relates to computer based facility enhancing the online users experience making it easier and more convenient to shopping online and for making easier faster payments when shopping from one or more multiple merchants.

There are many advantages of the present invention; in particular, this invention can be used for direct interface integration systems as well as utilization of electronic syntax, including the modifications and alterations of conventional electronic syntaxes with the unification of electronic navigation systems; such modifications of the present invention could include (but not limited to) the visual unification and identification of established electronic syntaxes i.e. textual data and visual files and formats thereof.

Moreover, there are numerous data input and manipulation methods and processes made accessible as a correspondence of the present invention in relation for the end user's predilection and intent. Furthermore the establishment and creation processes of the present invention allow for interactive graphical user interfaces and integrated user controller interface modules to be generated as a result of relative and associated embodiments of the present invention herein.

BRIEF DESCRIPTION OF DRAWINGS

While the appended claims gives a clear outlook of the features regarding the present invention in specific terms, the invention along with its objects and advantages, might be more comprehensive from the following detailed description taken in conjunction with the accompanying drawings of which:

FIG. 1a is a flow diagram showing a direct interface integration system and how elements that make up the present invention are processed and combined into a unified direct interface object.

FIG. 1 b, is a flow chart algorithm system, showing an inimitable algorithm allowing for inconsistencies to result in anticipated (and desirable) outcomes of all potential clients.

FIGS. 1C 1D and 1E, are flow chart algorithm systems, showing a navigational based method for initiating electronically from one page to another subsequently.

FIG. 2A is a visual representation which illustrates a contemporary web browser where the present invention has not been implemented.

FIG. 2B is a visual representation which illustrates a contemporary web browser where the present invention has been implemented into.

FIG. 3A is a visual representation which illustrates a desktop where the present invention has not yet been implemented.

FIG. 3B is a visual representation which illustrates a desktop where the present invention has been implemented into.

FIG. 4 is an exemplary comparison between the outcomes of the segments of the present invention, alongside an unaltered relative Uniform Resource Locator.

FIG. 5A to FIG. 5D are flow diagrams which shows the functionality, appearance and practicality of the present invention versus non practicality where the present invention is not implemented, in regards to the segments.

FIG. 6 shows the process of hierarchal networking activities that relate to the usability of the present invention.

FIG. 7A illustrates a contemporary application programme networking interface (web browser 2.0) of which the segments of the present invention embodiments can be integrated into.

FIG. 7B further illustrates the present invention embodiments being implemented into the contemporary browser API (web 2.0) with regards to the integrated segments.

FIG. 8 is a block diagram which illustrates a computing device, of which can support the present invention.

FIG. 9A is a visual representation that illustrates static segments being integrated as part of a web browser's graphical user interface.

FIG. 9B is a visual representation that illustrates a quantity of static segments being used within a potential web page.

FIG. 9C is a visual representation that illustrates non static segments being implemented onto a web page.

FIG. 10A illustrates a list of syntax or icons which can be used in conjunction with the present invention.

FIG. 10B illustrates a list of image formats which can be used in conjunction with the present invention.

FIG. 10C illustrates a list of devices which can be used in conjunction with the present invention.

FIG. 10D illustrates a list of user interfaces that could potentially be used in conjunction with the present invention.

FIG. 11 is a flow diagram which shows how elements that make up the present invention are processed and combined into a user interactive navigation system.

FIG. 12A illustrates a list of navigation systems which can be used in conjunction with the present invention.

FIG. 12B illustrates a list of graphical user interfaces which can be used in conjunction with the present invention.

FIG. 12C illustrates a list of devices which can be used in conjunction with the present invention.

FIG. 12D illustrates a list of user interfaces that could potentially be used in conjunction with the present invention.

FIGS. 13A and 13B is an exemplary comparison between the unaltered Conventional alphanumerical Navigation systems, alongside the outsets of the interactive navigation interface (present invention is novel).

FIG. 14a is an example and illustration showing one or more web pages (x and y) consisting of object modules and an interface object with a transition being initiated along with the optional advertisement module shown.

FIG. 14b is an example and illustration showing the two web pages (x and y) consisting of object modules and an interface object with a transition being reached along with the optional advertisement module shown as part of its representation/other.

FIGS. 15A and 15B are an example and illustration showing the possible usage of the object interface object with a transition being reached along with the optional advertisement module shown as part of its representation/other. Online transaction based-interactive payment gateway interfaces: virtual card payments—e.g. Swipe to pay methods and alike.

FIG. 16. is an example and of a virtual filing system and how it can be used as a virtual alternative to conventional filing and storage methods.

FIG. 17. Is an example and of a virtual filing and shelving system with box files and how it can be used as a virtual alternative to conventional filing and storage methods.

FIG. 18. Shows the selected Virtual File being used at present alongside the related documents contained within.

FIG. 19. Is an interface showing a virtual page/document page which shows the interactive turning animations using the direct interface integration method.

FIG. 20A. to 20C Is a direct interface showing a virtual document Interactive documents with writable interface areas and a writing stylus.

FIG. 20 D illustrates integrated user controller interface modules with data input and manipulation methods and processes

FIG. 20E illustrates integrated user controller interface modules with data input and manipulation methods and processes.

FIG. 20. F illustrates a social networking based application program interface where a comment is being written onto a device using a desired scribing method.

FIG. 20G illustrates a social networking based application program interface where a comment is being posted onto a device using a conventional electronic posting form.

FIG. 20. H illustrates a shopping network based application program interface where a wish list is being written onto a device using a desired digital scribing method.

FIG. 20 I illustrates a social shopping based application program interface where a comment is being written onto a device using a desired featured shopping based list.

FIG. 21. Is a direct interface illustrating Virtual envelopes and modernised stamps on a display screen with user interface elements.

FIG. 22. Shows a virtualized conference meeting of which includes Virtual representations of real life depicted work based desks which implements the direct interface system.

FIG. 23. Shows a cookie utilization process and method which can be used in conjunction with the present invention.

FIG. 24. Is a device of which can be used in conjunction with the present invention.

FIG. 25

FIG. 26A is a diagram showing the voice based command being initiated by the user, requesting to add an item into an online shopping basket.

FIG. 26B is a diagram showing the voice based command being spoken by the user, requesting to add an item into an online shopping basket.

FIG. 26C is a diagram showing the voice based command being finalised by the user, where the user has added an item into an online shopping basket.

FIG. 26D is a diagram showing the voice based command being initiated by the user where the item has been added to the basket and the user then has option to request a payment of the items in the basket.

FIG. 27A illustrates a conventional checkout system for multiple vendors.

FIG. 27B illustrates a checkout system using a single transaction process for multiple vendors.

FIG. 28A is a rough wireframe of an exemplary personal shopping based user interface where a calendar is implemented as part of the reminder system.

FIG. 28B is a rough wireframe of an exemplary personal shopping based user interface where the user has input personal data within the interface itself.

DETAILED DESCRIPTION Resourceful Step

A software application programme interface can be used with the systems in conjunction with embodiments of the present invention; the application programming interface in particular, each contain a plurality of segments of which can be perceived by the client as a user interface on a computing device 200, or equivalent; the application programming interfaces are implemented onto the computing device and stored as data on a mass storage device, including but not limited to the computers volatile memory; the stored application programming interface is made readily accessible by clients' aspirations for executing the application programming interface and performing it as an active task on the computing device, along with all activated tasks on a computer operated system; the application programming interface, once executed, is made readily accessible and simultaneously perceptible as an active software programme; the software programme is allocated on the computing device, and is opened as an application via the user interface on the associated operating system 453. The operating system has software requirements and specifications, of which the application programming interface will support such operated systems with the relevant criteria being met; the software, once opened and executed, can then be used by the client; the software, and the application programming interface when executed, the client is able to interact with the application programming interface; the application programming interface is made up of segments, of which includes algorithms which are methodically operated by the programme task; the algorithms work Systematically in conjunction with the application programming interface's intent, of which is to develop a response and produce a unified outcome.

The unification process itself is an algorithm which consists of nine main parts; the process starts with two main pieces of electronic data accessed by the internal storage device and accessible storage device; one being a file format and the other being an established syntax or icons or graphical user interface file 213 as shown in FIGS. 2A/3A; a manual operation is required by the client with regards to selecting the two pieces of data. all of these files are located onto the volatile memory of an accessible storage device 101 as shown in FIG. 1; the next part of the algorithm is a predetermined logical interface which collates both parts of the data, this interface consists of a predefined series of algorithms based on the consistent data located within the interconnected accessible storage device; depending on the combination of two pieces of data used in the algorithmic process, the logical interface 103 as shown in FIG. 1 will collate encode the data accordingly, and associate the data in a sequential process; once this process is complete, the data is then ready to be paired.

Once the two initial selected data has been collated and extracted from the logical interface, a pairing process takes place, in which the file format 211 as shown in FIG. 4 part b; and syntax or icons 213 as shown in FIG. 4 part A or graphical user interface are both merged. Once both pieces of data have been coupled, they are then prepared and endure the algorithmic unification process; the algorithm is initiated with a navigational page based method and concludes with the page destination path being reached by the end user as shown in FIG. 1C. After merger the merger phase occurs, both pieces of data become unified. The unified data is then stored onto the internal storage device and can then be accessed by the accessible storage device 214 as shown in FIG. 10C; by manual operation.

The flow diagram shown in FIG. 1 shows how elements that make up the present invention are processed and combined into a unified syntax or icons 106 as shown in FIG. 1. The process is divided into nine main parts commencing with the Accessible storage device 101 as shown in FIG. 1 also; an established syntax or icons 213 as shown in FIG. 2A and file format 211 as shown in FIG. 4 part b (stored data 102 as shown in FIG. 1) are made accessible through this device 214 as shown in FIG. 10C subsequent to a client choosing their preferred combination i.e. one syntax or icons 213 from FIG. 10A and a solitary file format 211 from FIG. 10B; The two are simultaneously accessed and are subsequently identified by a predetermined logical interface 103 as shown in FIG. 1 which collates the set of data (predefined process); the set of data go through a pairing process 104 as shown in FIG. 1 and endure a pairing phase and subsequently sorted into a pair; the pair endures unification process 105 as shown in FIG. 1 where they undergo a merger phase in sync; once the merger phase ends, the corresponding syntax or icons 213 as shown in FIG. 4A and file format 211 as shown in FIG. 10B become unified; the unified syntax or icons 106 as shown in FIG. 1 is then placed onto an internal storage device 107 (removable 107.1 or non-removable 107.2) as shown in FIG. 1; which is linked to the identical accessible storage device 101 as shown in FIG. 1 containing the solitary data.

The algorithm shown in FIG. 1D represents the process of an e-commerce system 745 as shown in FIG. 1D relating to user based predilections for navigating and interacting with the e-commerce platform as shown in the results 746.

The algorithm shown in FIG. 1E represents the transaction based process for using online vendors independently or within e-commerce based methods. The end result of the algorithm shows/allows for end users to make multi-vendor purchases using a single transaction for payment as shown in part 765 of FIG. 1E.

The flow diagram shown in FIG. 11 shows how elements that make up the present invention are processed and combined into a user interactive navigation system 106 b. The process is divided into nine main parts commencing with the Accessible storage device 101 b; an established graphical user interface file 213 and navigation system file 211 (stored data 102 b) are made accessible through this device 214 subsequent to a client choosing their preferred combination i.e. one graphical user interface file 213 from FIG. 2A and a navigation system format 211 from FIG. 12B.

The two are simultaneously accessed and are subsequently identified by a predetermined logical interface 103 b which collates the set of data (predefined process); the set of data go through a pairing process 104 b and endure a pairing phase and subsequently sorted into a pair; the pair endures unification process 105 where they undergo a merger phase in sync; once the merger phase ends, the corresponding graphical user interface 213 as shown in FIG. 4 part A and navigation system 211 as shown in FIG. 4 part B become unified; the user interactive navigation system 106 b is then placed onto an internal storage device 107 b (removable 107.1 or non-removable 107.2) which is linked to the identical accessible storage device 101 as shown in FIG. 1 containing the solitary data.

FIG. 1 b, is a flow chart algorithm system, showing an inimitable algorithm allowing for inconsistencies to result in anticipated (and desirable) outcomes of all potential clients reaching a desired path (i.e. electronic location). Moreover, this algorithm describes and illustrates query and data related input methods which are associated in initiating a query based input method and finally reaching/accessing the desired location.

FIG. 1 c, is a flow chart algorithm based operation system illustrating the navigational process of page transitions. More specifically, the algorithm shows tasks and methods used in association with reaching a desired path based location without the setbacks as found in conventional navigational based systems.

Implementations

The unified direct interface object or icons 106 as shown in FIG. 1 can be used over a hierarchy networking interface such is the one illustrated in FIG. 6. The hierarchy network interface process begins with a modem and server 201 followed by an access server 202 as shown in FIG. 6, followed by an internet service provider 203, followed by a phone line or router 204, followed by a modem 205 which is connected to a computer 206; the computer 206 contains a browser 207 as shown in FIG. 6, the browser 207 contains corresponding citations 208 (either or both browser 207 and citations 208 containing synchronized unified syntax or icons 106) and;

The browser 207 incorporates an internet protocol 209 which is used to establish a connection to one or more preferred electronic documents (web pages and the like) 208; the electronic documents 208 are accessed by the end user 210;

End user/s 210 will use the computer 206 to communicate with the network interface by accessing an established browser 207 (as shown in FIG. 2A) located on the volatile memory 109 of a computing device 200 such as the one illustrated in FIG. 8;

Depending on the end users 210 preference as shown in FIG. 5a , he or she (web user) may choose to make desired synchronized unified syntax or icons 106 obtainable on either or both (FIG. 3B) an established browser 207 as shown in FIG. 9A and established citations 208 as shown in FIG. 9A to 9 C;

Referring back to FIG. 6, the end user 110 is the users/s who own one or more citations 208; the proprietor 110 is the user/s who will be using the present invention with regards to unifying his or her web address 212 as shown in FIG. 4 part A, syntax or icons 213 Shown in FIG. 4 part A into a solitary preferable (i.e. visual) file format 211 as shown in FIG. 12A which can be used to advantage such end users 110 as shown in as shown in FIG. 6 along with their traffic i.e. web users/users;

The owned citations 208 as shown in FIG. 6 are commonly made accessible to end users 210 wishing to visit such electronic documents 208 by corresponding end users 210, performing the multiple tasks as shown in FIG. 5A; this task involves an end user 210 to accessing a web browser 207, then typing a range of concurrent values 303 corresponding to a desired desktop (web address 212) into the web address bar 216 as shown in FIG. 5A of the accessed browser 207 e.g. the web user will type a protocol 209 as shown in FIG. 6, followed by Colon, followed by hostname or IP address, followed by port number and finally type in the pathname of a desired web address 212 as shown in FIG. 4;

FIG. 5B is a flow diagram showing how the present invention can benefit end users 210 with regards to not having to perform the specified tasks above, as mentioned in FIG. 5A;

FIG. 5C scenario 1 a is without the implementation of the method as shown in the flow diagram, the user needs to find and locate a singular icon (or other equivalents) on computing device i.e. Desktop storage;

Scenario 2 a is where the end user interacts with the specified or chosen icon found in accessible location (depending on end user's predilection);

Scenario 3 a shows indicates that End user waits for icon to execute application programme interface on computer or electronic device;

Scenario 4 a illustrates that the end user is waiting for the located and accessed programme to load up.

Scenario 5 a clearly shows that the End user finally Accesses the preferred programme application in a sequential manner with regards to an elongated process to get to this point.

Scenario 6 a shows where End user then has ability to interact with specified and opened programme;

Scenario 7 a shows when End user wants to use another programme and closes or minimizes the application subsequently;

Scenario 8 a shows that the process starts over again whereby the end user needing to select and locate another icon (or other equivalents) on computing devices storage system and so forth;

FIG. 5D shows the process for an end user accessing and locating one or more applications located on a given storage device whereby the present method can be utilized to improve the process of directly reaching the desired location/s more efficiently.

Scenario 1 b shows where the end user locates the application of one or more programmes (or other equivalents) on computing storage device directly with a simple executable command (gesture based) or non-biometrically.

Scenario 2 b indicates that there's No need to interact with specified or chosen icons typically found in accessible locations such as conventional desktops and electronic digital workspaces.

Scenario 3 b shows the end user doesn't need to wait for icon to execute application programme interface on computer or electronic device since the location of programme (API) is directly implemented onto preferred device/s without pre-existence of icons.

Scenario 4 b describes the phase where there is also no need to Wait for the programme to load up since the application has been preloaded before or during (at time of) given command or biometric gestures (or other).

Scenario 5 b describes the Phase where End user can then instantly Access the preferred programme application in a sequential manner without the elongated process to get to this point as shown in FIG. 5D (Unlike the conventional methods).

Scenario 6 b) shows the end user having a direct and instant ability to interact with one or more programmes depending on their predilections.

Scenario 7 b further shows and describes if the end user wants to use another programme there is no need to exit current application since the other programme (or programmes) are directly and instantly ready to use.

Segmented Embodiments

FIG. 7A illustrates a contemporary application programme networking interface (APNI for short) of which the segments 207/208 of the present invention embodiments can be incorporated into. FIG. 7B concisely illustrates embodiments of the present invention being implemented into the contemporary APNI (web 2.0 browser) with regards to the incorporated segments 207/208; it is important to consider that FIG. 7A does not incorporate embodiments of the present invention, it does however aid the acknowledgement of the subsequent scenario with regards to the deficiency of a contemporary APNI (web 2.0 browser) where such embodiments are not present.

Whereas FIG. 7B in contrast, concisely incorporates embodiments 217 a of the present invention thus aiding the acknowledgement of the subsequent scenario with regards to the benefits of a contemporary APNI (web browser) where such segments 207/208 are incorporated.

Both FIG. 7A and FIG. 7B illustrate the following indistinguishable specifications: an internet browser 207, internet browser frame 301, newly visited citation 208 corresponding to syntax or icons values 303; of which have not been saved in the form of “bookmark”, “favourite”, “thumbnail” or set as “homepage” or alike, prior to the current presence of the displayed citation (save feature in 102/302 shown in FIG. 2A).

The divergences become apparent in FIG. 7A where demonstrations of a web address bar 216 and a typed web address 212 shown in FIG. 4 part A consisting of syntax or icons values 303 shown in FIG. 7B are perceptible. Whereas FIG. 7B demonstrates the initial value 303 of a contemporary syntax or icons 213 shown in FIG. 4 part A; being typed into embodiment A (static segment 217 FIG. 7B.) of the present invention, further initiating the emergence of a decisive unified syntax or icons 106 shown in FIG. 7B. (Non-static segment 213) within embodiment B (static segment 217 B) subsequent to the initial typed in value 303.

FIG. 9A through to 9C are visual representations which systematically illustrate the static segments 217 and non-static segments 218 (as mentioned in claims 17-23). FIG. 9A illustrates static segments 217, of which are integrated and simultaneously classified as part of an established contemporary web browser 207. The browser 207 shown in FIG. 3A segment is apparent as two operational graphical user interfaces; one being a user query interface, and the other being a unified syntax or icons 106 shown in FIG. 3B; FIG. 9B focuses on the desktop segment, correlating as a response to a query technique performed by an end user 210 with regards to the segment of the browser 207 as shown in FIG. 9A.

9B introduces a solitary static segment 217 which is located on a web page, corresponding to a correlating query being performed by an end user 210.

FIG. 9C focuses on the response with regards to a queried technique being performed by the end user 210 in FIG. 9B; subsequently, the end user 210 is given query correlated suggestions in order of relevance with regards to a variable yet decisive quantity of non-static segments 218 becoming apparent.

Results list or page containing a variable yet decisive quantity of non-static segments 218 corresponding to a concurrent query technique performed by the end user 210 (FIG. 9C); this would be of use with regards to utilizing contemporary search orientated citations such as search engines.

Concurrences of Potential Mediums

FIG. 10A illustrates a listing of syntax or icons 213 which can be used in conjunction with the present invention; the syntax or icons 213 are not limited to the ones shown, although it does aid the understanding of acknowledging the vast amount of electronic syntax 213 being available and presented throughout the technological medium along with the benefits of the present invention with regards to the unification of electronic syntax 213; the Uniform Resource Locators (web addresses 212) and end users/web host 110 shown FIG. 6 mentioned throughout, are just one of many exemplary circumstances with regards to the present invention being used in conjunction with an electronic syntax 213 shown in FIG. 4 part A part along with its rightful owner.

FIG. 10B illustrates a listing of file formats 211 which can be used in conjunction with the present invention; the file formats 211 are not limited to the ones shown, although it does aid the understanding of acknowledging the vast amount of file formats 211 being available and obtainable throughout the technological medium along with the advantages of the present invention with regards to the boundless amount of file formats 211 to satisfy utmost customers of such technological medium.

FIG. 10C illustrates a listing of devices 214 which can be used in conjunction with the present invention; the devices 214 are not limited to the ones shown, although it does aid the understanding of recognising potential devices 214 which could benefit with regards to the syntax 213 as shown in FIG. 10A being unified through means of being used in conjunction with the present invention.

FIG. 10D illustrates a listing of interfaces 215 which can be used in conjunction with the present invention; the interfaces 215 are not limited to the ones shown, although it does aid the consideration of recognising potential interfaces 215 of which the embodiments of the present invention could be applied to.

FIG. 12A illustrates a listing of navigation systems 211 which can be used in conjunction with the present invention; the file formats 211 are not limited to the ones shown, although it does aid the understanding of acknowledging the vast amount of file formats 211 being available and obtainable throughout the technological medium along with the advantages of the present invention with regards to the boundless amount of file formats 211 to satisfy clients of such technological medium.

FIG. 12B illustrates a listing of graphical user interfaces 213 which can be used in conjunction with the present invention; the GUI's 213 are not limited to the ones shown, although it does aid the understanding of acknowledging the vast amount of GUI's 213 being available and presented throughout the technological medium along with the advantages of the present invention with regards to the unification of GUI files 213; the graphical user interfaces mentioned throughout, are just one of many exemplary circumstances with regards to the present invention being used in conjunction with an graphical user interface file format 213 along with its rightful possessors.

FIG. 12C illustrates a listing of navigation associated devices 214 which can be used in conjunction with the present invention; the devices 214 are not limited to the ones shown, although it does aid the understanding of recognising potential devices 214 which could benefit with regards to the syntax 213 as shown in FIG. 2A being unified through means of being used in conjunction with the present invention.

FIG. 12D illustrates a listing of user interfaces 215 which can be used in conjunction with the present invention; the interfaces 215 are not limited to the ones shown, although it does aid the consideration of recognising potential interfaces 215 of which the embodiments of the present invention could be applied to.

Main Areas of Effectiveness

Embodiments use the most suitable and relevant processes which apply to application programme interfaces found on conventional devices (i.e. computers); more specifically a hypermedia networking facility, whenever a process is applicable, and the established syntax (i.e. uniform resource locator “URL”) is converted into an established contemporary solitary visual file format. The visual features of the unified syntax (i.e. modified “URL” syntax), can be tailored to suit an applicable user's) personal preference;

Embodiments use the most suitable and relevant processes which apply to graphical user interfaces and electronic value navigation systems application programme interfaces found on conventional devices (i.e. computers); more specifically a hypermedia networking facility; the unification process results in the creation of a user interactive navigation system 216; such as the one shown in FIG. 13, which could be applied to all conventional hyper media based facilities with interfaces.

Advantages

in addition, this will be made beneficial to both end users 210 shown in FIG. 5A, as well as the client/end user (web user 210) wishing to access a desired desktop 208 shown in FIG. 3A to FIG. 4 corresponding to the location properties of a unified syntax Direct integration object (present method) 106 shown in 5B; the unified syntax 106 requires a single click opposed to entering an address 212 shown in FIG. 4 part A of a desired web page 208 and clicking the “Go” button next to the address bar 216 shown in FIG. 7A, or pressing enter.

Users with disabilities such as reading and writing difficulties can also benefit from a unified syntax or direct interface object based system modules 106 shown in 5B because it is an visual format making it more of a user friendly interface in contrast to people with such limitations, struggling or attempting to use a traditional web address bar 216 shown in FIG. 7A through means of navigating a user network interface on a computing device 200 as shown in FIG. 10C for example.

Furthermore, the method eliminates the necessity of web users having/struggling to remember a “URL” syntax 212/213 shown in FIG. 4 part A, subsequently making the present invention an adequate solution, with regards to making sure that such citations 208 shown in FIG. 5B (i.e. online businesses), retain or exceed their desired level of traffic by using the method to ensure maximum potential traffic through means of simply looking, recognising and clicking opposed to memorising, typing and forgetting.

Another advantage of the present method is that the concurrent syntax values 213/303 shown in FIG. 2A on citations 208 shown in FIG. 2A (i.e. commerce electronic documents), does not limit the company using an established unified syntax 106 as shown in FIG. 4 because the values are not apparent; replaced with a solitary visual file format 102 shown in FIG. 1 subsequently, meaning that companies can effectively implement their company name or brand onto their unified syntax 106 Shown in FIG. 4 (modified “URL”), effectively abolishing related issues which can simultaneously benefit online businesses as well as new web users i.e. online customers.

In addition, this will be made beneficial to clients wishing to effectively and interactively navigate desired electronic pages via conventional interfaces as shown in FIGS. 14a and 14b , in which page x 217 and page y 218 and the interactive navigation system would work as follows; a user interacts with the interface object 219 when wanting to navigate from page x 217 to page y 218 i.e. if the user clicks the interface object 219 then the transition 220 becomes initiated and the object 219 begins to move from the current page (page x 217) to page y 218; furthermore by looking at FIG. 14b , it is apparent that the page transition has been completed 223 and that the interface object 219 have moved from page x to page y (one page to another) subsequently.

Furthermore, the advantages of FIGS. 14a and 14b illustrate the ways in which an advertisement 221/222 can be utilized in conjunction with the interface object; the advertisement 221/222 begins and ends in terms of starting on page x (217) and continuing onto pay y (218) i.e. the advertisement and interface object beginning at the same time on page x, and ending at the concurrently on page y 218.

FIG. 15 further shows the various interface based objects 225 that could be used in conjunction with the present method of navigation interfaces i.e. a shopping trolley 226 moving across the screen/page as indicted by the horizontal arrows to which the trolley (interface object 225 example) can move.

Online transaction based (227) shown in FIG. 15; shows interactive payment gateway interfaces: virtual card payments—e.g. Swipe to pay methods which could be used as an option for making payments i.e. virtual transactions over online payment gateways. This could incorporate merchants using payment gateways.

Advantages

Another advantage of the direct interface integration method and system, means that's virtual Storage shelves, and Filing systems (i.e. virtual filing cabinets 227) as shown in FIG. 16 can be used as a virtual alternative to conventional filing and storage methods; an example of how it could work is where a search bar 228 is placed above the virtual filing cabinet 227, once a file name is entered into search bar 228 then a bubble 229 appears over the filing cabinet 227 specifying the virtual cabinet 227 is opening one of its virtual draws 230; further on, one of the fully opened draws 231 reveals the files to access, of which users can use to file or store the previously searched in the search bar 228. Filing cabinets (opening closing and storing of, for ease of), a visual and user interface based interactive version (representation of a filing cabinet) being used on an electronic digital device and interactively embedded onto (or within).

Another instance where the direct integrated interface can be utilised is on the virtual ring binders, and file folders as shown in FIG. 17 whereby virtual folders on a virtualized shelf 232 containing virtual files 233 are apparent on a display screen; when a file has been selected or pre chosen by the user 234, then the virtual file can be seen to being virtually taken from the virtual shelf 235 and finally the virtual file can become perceived as being fully taken off the virtual shelf and ready to be looked/opened 236 by the end user.

A claim wherein all visual (graphical user interface based representations of education/work/home/office based utilities being utilised as follows:

FIG. 18 shows the selected Virtual File 237 being used at present alongside the related documents contained within; the Document/s shown and readable based on the file being opened and taken from the virtual file shelf system; in particular the opened document (238). Filing cabinets (opening closing and storing of, for ease of . . . ), a visual and user interface based interactive version (representation of a filing cabinet) being used on an electronic digital device and interactively embedded onto (or within).

FIG. 19. is an interface showing a virtual page/document 239 Page or document interface turning and the like (optional Hand based user interface controls) which is being turned 240 and the Current tasks being performed by user i.e. turning the page interface. An arrow 241 is further representing the current turn direction of the hand based (page) document user interface.

FIG. 20. Is an interface showing virtual document/s 242 Interactive documents with writable interface areas and shows a Writing stylus 243/hand for writing interface options on page/postcard/other virtual based documents. As well as a writing indicator (244) specifying the current tasks being performed by user i.e. writing on page interface. There is also an interactive envelope 245 placed behind the virtual document this method relates to electronic (digital) writing based interfaces in particular (but not limited to).

FIG. 21. Is an interface showing Virtual envelopes (papers 246 a in and out of envelopes 248, e stamps, and modernised stamps on an interface; Virtual posting (stamps, sending, receiving and the like) in relation but not limited to emails and emailing a visual based format process, Letterbox mail (receiving and posting), digital scribing 247 via on the electronic paperless solutions (paper based interface), and the like, of which Relates to direct integrated objects/modules.

Another interface shown in FIG. 22 is of a virtualized conference meeting of which includes Virtual representations of real life depicted work based desks/desktops including (but not limited to) office based/home based/other Virtual conferencing; the direct interface based integration methods can be further utilised to create a virtual conference 251 a, the virtual conference interface 251 b could consists of a number of user control options 250 such as (but not limited to press/select/call enter/view conference/s/documents/virtual presentations as well as conference calling; the virtual conference 251 itself could have a main conference caller (for example) with exclusive and virtual seating along with the other conference callers 255 for instance. The conferences could also take place around a virtualized conference table 254 of which could contain the virtual documents based on where the conference (255) users are seated. Select/Enter/access/view/call/participate; conference/s/meeting/s/classes/virtual office/s/and the like/training/other/View-access virtual/online/other document/s-virtual/online and the like/virtual presentations-virtual conference/conference calling etc. and the like.

Our ‘virtual conference’ and ‘ virtual office’ concept is unique in that you can access a single or multiple virtual room/s; for work/office/or social uses, where you can interact with other users; i.e.—this can include accessing and viewing your documents (253), and each other's where appropriate as in a real office/meeting environment, viewing and accessing a real meeting or presentation—the same data displayed by i.e. the company director, this can be in real time or other.

You will be able to interact and exchange information/data, share conversations and the like with those virtually present, if you have not been to the meeting on live time basis i.e. because of international time differences—you will be able to view i.e. the primary meeting/minutes of the meeting i.e. by the company's directors updates—and be able to leave messages etc. for a specific user to respond to you, or request action on your findings as a result of attending/or later accessing the virtual meeting.

The screen will have a menu option to provide the user with full and easy information and directions on which meetings/companies/persons are booked in and due to take place. Other information such as the minutes of the meeting, which persons due to be present virtually, or will access the meeting at a different time, results of the meeting recorded by various individuals etc. are also noted.

‘The virtual office conference’ will empower the user to be present in a virtual way, where the user will have different options in how to represent them self—for when they are socially interacting with other ‘virtual conference users’, different forms used to identify the user could include a photo of the user or a selected picture or figure etc. This figure or real life photos of one's self can be captured and downloaded to the computer which can be minimised, with virtual adaptations to present the user e.g. wearing a different suit to each virtual meeting without the need to even get dresses or changed.

The user will present them self in this new and innovative way, interacting virtually in a meeting with other guests; speaking, nodding etc. This concept can be utilized to maximise the potential in this area with other technologies to enhance the user experience. An example is: appropriate responses/movements such as sensors worn or intelligent computer animation to mimic your speech, or sounds—and can include pre-selected options chosen for acting/responding appropriately depending on the given situation which can be pre-selected/stored/saved/shared/accessed appropriately if/when needed saving valuable time, and money without the need to compromise on missing important meetings in a fast changing and exciting 21st century.

Users can participate and/or attend the virtual meetings, see each other virtually, listen, talk and discuss (through i.e. a microphone, PC their device, other), make Virtual gestures such as shaking hands, making a toast, agreeing and disagreeing with points raised as in real life meetings.

Eventually virtual meetings will be the acceptable alternative to traditional meetings—making this much more practical and convenient especially for busy people in office and work related areas, saving valuable time i.e. travel, and expense, taxi, airfare, fuel where this option also makes ecological sense.

Advantages of Pairing Process

As shown in FIG. 1, The main advantages of the paring process includes direct integration based user controller interface modules and object and utilization of direct interfaces with touch, contactless and other associated communication fields i.e. haptic feedback, nfc (near field communication) or other communicational processing or the like. Such implementations could be used for (but not limited to) manual key entry of uniform resource locators (web addresses) and the like.

Another of the key advantages of the pairing process is that it behaves as a direct communication field processing and associated directly integrated user controller interface modules along with one or more associated devices in correspondence to non-biometric or other communicational activities of and between one or more devices; furthermore the predilection of touch associated communicational fields along with the desired direct integrated user controller interface module consisting of touch, non-touch sensory methods i.e. using fingers and prominent (or non-prominent) laser dots for example, as point and navigational system based and directive utilization of tools.

The end user or users as well as one or more corresponding devices helps to enable the devices to be technologically interactive and also digitally manipulated in relation to the one or more of the end users' electronic devices with i.e. communicational based functionalities with adaptive capabilities. Also the present invention is an alternative means to direct interfacing manipulation of unconventionally used cursors of an application programming interface and/or graphical user interfaces along with the present invention's unified and combined object based interface modules.

A further advantage of the pairing process is the direct interface manipulation of electronic devices and interface' along with associative manual data entry methods for accessing desired path location on such interfaces i.e. web addresses and the like; of which can be manipulated in alternative manners in regards to conventional manual input entries of data input methods thereof. The manual entry of data input methods using the present invention in regards to such input methods being fulfilled with alternative methods to pre-existing and traditionally associative manual input methods; the present invention further allows end users to directly manipulate a chosen or predefined path or location on electronic communicational devices (or other) with such capabilities; As such, direct user manipulations can be fulfilled in many different ways.

Some more advantages of this process would include using hand based such as off screen gestures or equivalent in order to manipulate data on the interface based display screen (or other) and all aspects of a screen; thus allowing the user to manipulate the screen (or other) itself without limitations.

As a direct result of the pairing process, the on screen gestures can then be perceived and chosen by the end user's predilection such as digital handwriting, drawing, scribing, painting (or other) on a screen as shown in FIGS. 20 to 20 i; such electronic and virtual writing examples could include as well as using comment boxes on i.e. social networks such as messaging, posting messages and comments based, as well as customer based reviews, writing out search engine queries on search bars, digital handwriting of emails, books i.e. authoring and the like, digital writing interfaces, digital signage, digital virtual selection of lists and the like, digital document writing. As well as digitally writing and scribing uniform resource locators.

A direct interface showing a virtual document Interactive documents with writable interface areas and a Writing Stylus as shown in FIG. 20. An integrated user controller interface modules with data input and manipulation methods and processes can also be seen in FIG. 20 D. FIG. 20E shows how the integrated user controller interface modules with data input and manipulation methods and processes.

FIG. 20 F illustrates a social networking based api where a comment is being written onto a device using a desired scribing method.

FIG. 20G illustrates a social networking based api where a comment is being posted onto a device using a conventional electronic posting form. FIG. 20H illustrates a shopping network based api where a wish list is being written onto a device using a desired digital scribing method. FIG. 20 I illustrates a social shopping based api where a comment is being written onto a device using a desired featured shopping based list.

FIG. 27A is a flowchart which illustrates the conventional methods for a customer using an e-commerce platform in which they use more than one vendor to purchase one or more products from within the site; it further shows that multiple separate payments are paid by or for the user to each vendor using the conventional payment methods.

FIG. 27B is a flow chart which illustrates a similar but more inventive and direct approach to making payments through an e-commerce based systems or platform than the method shown in FIG. 27A.

Furthermore, the method in FIG. 27B shows how each vendor is interlinked between the checkout process and the way in which payments are made for making purchases, making it a more straightforward approach for the end user to pay using the algorithm shown In FIG. 1E; which represents the transaction based process for using online vendors independently or within an e-commerce based methods. The end result of the algorithm shows/allows for end users to make multi-vendor purchases using a single transaction for payment as shown in part 765 of FIG. 1E.

The following numbered examples are embodiments.

1. A method implemented onto a computer device for unification of elemental sequences of syntaxes and graphical user interfaces into a unified syntax direct interface object based contemporary file state; also, comprising Direct interface integration systems and deployment (or equivalent) of electronic syntaxes and/or representations (visual based or other); and unification of electronic navigation systems and transaction based payment systems as well as interactive graphical user interfaces; Further comprising (but not limited to) integrated user controller interface modules with data input and manipulation methods and processes. 2. The method of example 1, wherein the process has unrestricted use for collective elements found in electronic syntax based textual properties whilst retaining the fundamental properties and characteristics, recognised in the form of (but not limited to) text, hypertext, search queries, text hyperlinks, search results, listed results, alphabetical value navigations, number value navigations, bookmarks, suggestions, suggested results, search history, favourites, usernames, passwords, domain names, URLs, tags, bookmarks, IP address, protocols, extension names, phone numbers, stock/share names and prices and all equivalents. 3. The method of example 1, comprising the unified syntax or direct interface object properties and characteristics intentions being used in an alternative manner with regards to typing in an unvisited or pre visited location such as a desired network interface, by alternatively interacting with an established unified syntax and direct interface object which corresponds to a desirable location. 4. The method of example 2, wherein the mentioned process is not limited to a single technique so that a multitude of systems can be used to achieve an equivalent end result. 5. The method of example 3, comprising “interacting” with an established unified syntax and direct interface object is sanctioned from within its own hyper-properties which are formed after or during the unification process. 6. The method of example 1, comprising the unified direct interface object being applied onto a desirable computer networked or ungrouped interface. 7. The method of example 6, wherein the applied unified direct interface object or other outcome will be observable as a direct interface integration system or equivalent. 8. The method of example 7, comprising the direct interface integration system based object/other being present and obtainable in relation to the end user's predilection. 9. The method of example 8, wherein the end user requests the Direct interface object prior to aspiration for accessing a desired page before the interface is presented and obtainable. 10. The method of example 9, comprising the direct interface object being apparent on either a page or the frame of a Desktop or web browser when it is desired by the end user. 11. The method of example 9, comprising the requests being generated from a variety of techniques regarding Queries. 12. The method of example 11, comprising queries not being necessarily limited to a single technique, also, a magnitude of “query” techniques can be used, all of which will result in equivalent results thereof. 13. The method of example 12, comprising “query” techniques comprise (but not limited to) typing in a letter corresponding to the first letter of a desired syntax based path, typing in the syntaxes path, typing in the host name, clicking on a letter or number corresponding to the first letter or number of a desired Direct interface object or syntax name and so forth. 14. The method of example 13, wherein an end user willingly performs one or more “query” techniques using accessible keyboard or mouse hardware as well as speech recognition or touch software associated to a computing device, depending on their predilection, concurrently anticipating the queried technique or techniques on one or more devices. 15. The method of example 13, wherein the appearance of one or more corresponding unified syntax or icons being methodically associated with the query string adopted by the concurrent queried technique performed by an end user. 16. The method of example 15, comprising the apparent location of corresponding unified syntax and direct interface object varying accordingly yet simultaneously determined by the associated mannerism of an anticipative query i.e. the user types in a word depending on predilection and subsequently location to desired object/path. 17. The method of example 16, wherein the outsets of characteristics of an anticipated query is recognised and classified within two main segments; one in a desktop based browser and the other in a desktop environment./virtual environment or other. 18. The method of example 17, comprising a static desktop/browser segment being used as an alternate navigation query technique to a path location based address bar (conventional navigational interface method). 19. The method of example 17, comprising the desktop page and virtual environment segment consisting of a multitude of variable non-static segments situated in a corresponding multitude of static segments/part of. 20. The method of example 19, wherein the type of variable segments found on particular virtual environments/desktops will depend on the corresponding electronic documents. 21. The method of example 20, comprising query related search based electronic documents (web pages and the like) containing a static segment in the search (query) user interface, determined quantity of non-static segments contained in the suggestions (pre-determined) user interface, and a pre-determined quantity of non-static segments enclosed on a result page following from the concurrent queried technique performed by an end user. 22. The method of example 20, comprising probable Desktops containing non static segments/modules associated with similar or alternative Desktops being perceived as a response by the end user performing a concurrent technique. 23. The method of example 22, wherein the perception of the segment is apparent as a visual representation of the unified syntax and direct interface object. 24. The method of example 23, comprising the visual representation of a unified syntax or icons being distinctive yet simultaneously being relevant to the user's desires. 25. The method of example 24, wherein end users are able to associate with the desired unified syntax and direct interface object in recognising its distinctive appearance. 26. The method of example 25, comprising the recognition of unified direct interface object being used as a means of endorsing electronic documents (web pages and the like) or equivalent object document models through non static segments of alternate object document models, increasing traffic of object document models simultaneously including (but not limited to) traffic and page visits of Html based documents or alike. 27. The method of example 26, wherein unified direct interface objects (and the like) contained in segments of corresponding electronic documents; use their hyper properties to initiate direct link advertising with regards to the unified syntax Direct interface objects containing properties relating to a location from within their unique identity. 28. A method comprising, revenue generation for direct interface integration systems and for direct link advertising, and generating revenues potential end users as a result of simultaneous direct integration of the objects/electronic pages/websites or other (all variations of navigations systems). 29. The method of example 28 wherein direct access of initiation between one or more pages (web-based/offline or other) i.e. transition from one page to another. 30. The method of example 28 and 29 wherein transition of/to one or more pages incorporate advertisement/advertising based modules/objects. 31. The method of example 28-30 wherein advertisement pages/other based modules/objects, in relation the page transition of which can correspond/correlate with pages as to which the advertisement object/modules are placed, for example (but not limited to) shopping based web pages/sites incorporating shopping based advertising modules/objects into one or more pages, or equivalents. 32. The method of example 28-31, comprising multiple page base transitional advertising modules/objects being utilised as a means of electronic advertisement revenue generation. 33. The method of example 28 to 32 wherein the relative revenue generation of these claims could coincide with pre-existing revenue generation platforms and the like, which can be network based or ungrouped (offline);

Such systems relating to direct integration/navigations being used and utilised as an advertising (or alike) platform for revenue generation (Rev Gen).

34. The method of example 1-2, wherein features of the unified syntax and direct interface objects, can be tailored to suit the corresponding end user's preferences. The established syntax and Direct interface objects not necessarily being limited to a uniform resource locator and website users; all contemporary solitary syntax and Direct interface object along with the legitimate owner, may be used in conjunction with the present method. 35. The method of example 1, 2 and 34, wherein the approved file format accompanying an established syntax and Direct interface object, is not necessarily limited to a visual format; all contemporary file formats may be used in conjunction with the present method. 36. The method of example 1, 2, 34 and 35, wherein the end result of the present invention is not necessarily limited to being stored and used on a computing or tablet device; all contemporary devices may store and simultaneously maintain usability of one or more inconsistent unified direct interface objects. 37. The method of example 6-23, wherein the unified direct interface objects not necessarily being limited to being perceptive and interactive on an established computer network interface; all contemporary interfaces may be used for perceiving and interacting with one or more inconsistent unified direct interface objects. 38. The method of example 1, 34 and 35, comprising the established syntax and Direct interface objects and file format being obtainable through the accessible storage device of the interrelated computer apparatus. 39. The method of example 1 and 38, comprising the direct interface objects being stored onto the internal storage device of the interrelated computer apparatus. 40. The method of example 1 to 5 and 37, additionally comprising the interactivity of the direct interface objects being a subsequent yet decisive and inconsistent response concurrently determined by the unified syntax Direct interface object's intent;

Regarding hyper properties corresponding to the technological mediums simultaneously, hence incorporating the associated and inconsistent quantity of direct interface objects

41. The method of example 26-32, wherein funding is not necessarily limited to being obtained through advertisements and endorsements; all conventional/unconventional funding methods/processes of commerce may be incorporated to achieve equivalent results thereof. 42. The method of example 1, 2, 4, 6, 9, 10-16, 18-21, 27, 34-37, 40 and 41; comprising this invention along with all of its applicable counterparts, being classified as an exclusive yet advantageous alternative to conventional technological mediums which are associated with manual data (query technique) input and icon based interfaces;

Hence involving the overall novelty of the present invention being entirely and/or partially consistent, through means of its characteristics, outsets and functionality of its technological (industrialized) purpose.

43. The method of example 42, wherein people constrained by reading and writing issues such as dyslexia and alike, may use the present invention and/or its essential (or desired) counterparts by using it in conformity with compliant query techniques (manual data entry techniques and similarly) effectively facilitating such people (restricted end users) to perform such tasks, subsequently resulting in consistent yet anticipated (desired) systematic outcomes;

Such outcomes are made readily accessible when the end user utilizes at least one conventional query technique which works in compliance with the present invention's applicable counterparts; this means that an end user could key in an incoherent sum of figure values and/or erroneous inconsistencies of figure values yet still achieve expected end results whilst eliminating undesired (or unanticipated) results.

44. The method of example 42, comprising conventional unified syntax or icons being stored on anticipated and desired (compliant) communicational devices allowing for a direct communication between one (or in excess of one) or more parties' predilections. This is achieved simultaneously by the mandatory tasks being performed on a compliant communication device or networking device, similarly;

Such tasks can be executed on an application programme interfaces found on a touch screen devices or alike, which could be associated with communication based networking activities that are used in compliance with relevant counterparts of the present invention.

45. The method of example 44, wherein the device user interfaces assigned with navigational purposes such as (but not limited to) television electronic programme guides, digital devices, phone number listings/directories/caller displays and other equivalents; the end users may use existing and imminent technological mediums to benefit from the vast advantageous implications of unified syntax or icons and other corresponding counterparts of the present invention. 46. The method of example 42-45, wherein algorithms can be used to determine the most effective solution for the end user's (or end users') predilections'. These algorithms may be used in conjunction with all relative data entry input/processing (compliant techniques);

Each technique has a unique identity which corresponds with the end user's (or users') series of anticipated requirements;

These requirements are executed and subsequently delivered to the users (or users') required standards in accordance with the corresponding algorithms associated with at least one established (compliant) techniques.

47. The method of example 43 and 46, wherein these methods (whenever/wherever applicable) in conjunction with the present invention, can be compliant with techniques in the following sequential scenario with regards to incoherent levels of inconsistency in relation to the client (or clients) and the desired/essential (compliant) technique (or techniques);

Part A

A client wishes to gain access to a desired queried response.

Part B

The client chooses one compliant query technique (at least one convention of a compliant technique being essential with the exception of usage of multiple compliant techniques being optional)

Part C

The client manually inputs an inconsistent amount of the anticipated entirety of the required values into the data input interface of the complaint query technique.

Part D

Once the inconsistent queried values are processed, the client's query (or query string) is adopted by the associated (compliant) query technique.

Part E

The associated complaint query technique identifies and distinguishes the inconsistent values of the adopted query as “misspelt”, subsequent to an error identification process (counterpart A of compliant algorithm).

Part F

An auto correction process occurs (counterpart B of compliant algorithm).

Part G

Despite inconsistent values of data being processed, the client is consequently directed to a desired path/result, nonetheless.

Part H

Such outcomes can be achieved by the client (end user) when contextual services incorporate all applicable counterparts of present invention.

48. The method of example 1-47, comprising the present invention being capable of industrial application by simultaneously and dependently serving/providing an industrial technological purpose on hypermedia devices such as computers (and all its equivalents');

Embodiments of the invention being consistently, entirely and/or exclusively accessible on/in/through such devices (aforementioned above) through means of executive tasks (or its equivalents);

Such devices consisting of accessible paths and/or locations relating to interfaces typically found/recognised in the form of application programme interfaces (or its equivalents);

Moreover, such interfaces (or interface) being consistent with embodiments of the present invention, be it entirely, partially or dependently, thus allowing the invention to serve (and/or provide) it's industrial technological purpose (where applicable).

49. The method of examples 42-48, comprising the present invention encouraging a new alternative to conventional electronic syntax or icons found/used on most conventional technological mediums;

In particular, the incorporation of counterparts of the present invention providing an adequate (visual) solution in place of existing contextual setbacks, limitations and constraints faced by electronic contextual related businesses and services.

50. The method of example 46-49, comprising the present invention being an adequate solution with regards to abolishing unanticipated responses through inconsistent query strings adopted by query techniques of electronically established visual and textual services and/or businesses;

Such services or businesses dealing with visual (and the like) contextual activities, can incorporate all necessary counterparts of the present invention in order to allow for clients to be able to advantage from unintentional yet inconsistent data input errors by means of counterpart A and B of the corresponding algorithm (A—error identification process B—auto correction process).

51. A further method is described where Two particulars; interactive graphical user interface and an electronic navigation system become unified to produce a user interactive navigation system; the unification process of these particulars are not necessarily limited to any one process, so that a multitude of systematic processes may be used to achieve an equivalent result thereof. 52. The method of example 51, comprising the end result being perceived as a user direct interactive navigation system, and could contain static and/or non-static elements. 53. The method of example 51, wherein conventional/unconventional electronic navigational systems consisting of values, characters, numeric, alphabetic, alphanumeric and the like;

Such navigation systems with/without perceived and applicable technological functions and processes or equivalent, can be used in conjunction with the main attributes of the present invention i.e. merging such systems with interactive and/or client controllable graphical user interfaces.

54. The method of example 51-53, wherein the unification process of the two particulars can be performed and executed as a task on operational systems such as on a computing device. 55. The method of example 51-54, comprising the user interactive navigation system (end result) being implemented onto an electronic and accessible storage device with data accessibility capabilities. 56. The method of example 55, comprising the end result (User interactive navigation system with direct attributes) being obtainable and usable as a data file on electronic storage devices with data accessibility. 57. The method of example 56, wherein the data file can be placed onto value navigation specific/unspecific programmes;

The data file format could be either image related, script based, custom script, format, video file related, flash based, audio based, visual based, web 2.0 or 3 plus compliant;

The file format will also be variant and relative for variable usages on such value navigation programmes for hypermedia-based electronic devices.

58. The method of example 57, comprising the data file and format being anticipated, readily accessible, compliant, perceived and in/consistently usable by users (clients), whom of which could be electronically navigating (or alike) programme user interfaces (or equivalent) with or without networking, and/or communicational based capabilities (or alike). 59. The method of example 51-58, comprising the outsets i.e. properties and characteristics of the data file user interactive navigational system (UINS) are retained from the initial value navigation based system before the unification process of the two particulars have taken place;

With exception of the retained outsets, one or more additional out-sets are retained after the unification process of these particulars. These out-sets could be related to the properties of the graphical user interface with regards to the interactive aspects and user controllability of the GUI (graphical user interface) itself. This gives the user interactive navigation system its novelty in terms of traditional value (UN-direct) based navigation systems.

60. The method of example 58 and 59, wherein the user interactive navigational interface can be entirely or partially segmented in terms of clients electronically navigating from one destination to another and so forth. 61. The method of example 60, comprising the navigation process varying upon the client's predilections. These predilections will help to determine the segmentation status of the user interactive navigation system;

If a client's predilection was to consist of a multitude of electronic destinations of correspondence to at least one programme interface, then the number of segments might be equal to that of (or more than) the total number of sequential destinations of the client;

If a client was to navigate to a non-sequential destination, there will be a division of two segments i.e. object 1A moving to all/either destination x, y and/or z.

62. A method comprising the unification of electronic navigation systems and interactive graphical user interfaces. 63. The method of example 62, comprising unified interactive navigation systems being applied to electronic navigation associated directories and databases. 64. The method of example 63, comprising client's desires and aspiration for interacting with interactive navigation systems. 65. The method of example 64, comprising client interaction with interactive navigation systems being achieved with corresponding integrated device related hardware and/or associated navigation devices. 66. The method of example 65, comprising clients simultaneously controlling and interacting with interactive navigation systems. Also object module can be independent from advertisement module or form part or all of it. 67. A method, comprising interactive navigation systems consisting of static/non static elements with one or more animated segments. 68. The method of example 67, wherein animated segments are perceived in the form of one or more graphical user interfaces with client controllability functions. 69. A method comprising graphical user interface properties, states, outsets and appearance simultaneously corresponding with direct associations, and matching variable, yet concurrent properties and locations of user interfaces in terms of (but not limited to) interactive navigation systems. 70. The method of example 69, comprising compliant interactive subjects of graphical user interfaces being integrated into interactive navigation systems where systematically applicable. 71. The method of example 63 and 69, comprising the graphical user interface varying accordingly yet systematically with regards to its predetermined state on electronic navigation associated devices. 72. The method of example 69, wherein the matching properties and locations of user interfaces effectively allows for clients to simultaneously interact with the graphical user interface and/or interactive navigation system, in terms of the interrelated properties and locations. 73. A further method is described where a conventional electronic navigation system and an active graphical user interface become unified; the unification process can be achieved and performed on a computing device; once this process is complete, the two particulars become unified and obtainable as a solitary format consisting of one or more segments. The created format will be novel and perceived as an interactive user based navigation system (the end result). 74. A further method of example 1 to 73 is described where the Direct Interface Integration systems (D.i.i.S) as an alternative conventional operation systems using traditional computer icons as a mean of accessing software based applications and instead, the visually represented graphical user interfaces, for example (but not limited to) office based software, hardware being readily accessible and interactively usable and visual representation of the object (direct interface integration system). 75. The method of example 1 to 74 wherein the direct interface object is made readily available (but not limited to) simultaneously by accessing without the necessity of having to use an icon or representation to access a programme interface unless the user wants otherwise icons to access the virtual interfaces; further rendering the Direct interface object systems icon less. 76. The methods of example 74 to 76 wherein representations (such as icons, images, symbols, emblems, logos and pictures and, syntaxes and text) being an optional or alternative to the direct integration systems feature and functionality. 77. The method of example s 73 to 76 wherein the Direct interface systems creation and integration method assists in the prevention of manual data input of elongated syntaxes (and the like); 78. A method comprising utilisation of direct interface integration and direct/interface navigation systems/objects/modules/other. 79. A method of example 78 wherein direct interface integration and direct/interface navigation systems/objects/modules/other; accessed and utilized simultaneously. 80. A method of example 28 to 33 and 77 to 79 comprising a new and comprehensive revenue generation platform based system, utilising direct interface integration system based objects, and the like. 81. A method of example 80 wherein Such systems relating to direct integration/navigations being used and utilised as an advertising (or alike) platform for revenue generation (Rev Gen). 82. A method of example 77 to 79 wherein Direct interface integration systems have a number of advantages i.e. representation virtual office/desk based is made accessible (visually represented) on all readily available operating systems with the exception of licensable entities of the visually represented GUIs being exclusive to one or more devices (hardware). 83. A method of example 82 wherein a multitude of user interfaces to interacting with education/work/home/office based utilities on a display screen being associated with one or more sequential GUIs at any given time in terms of (but not limited to any particular time frame) but instead a flexible user based time frame. 84. A method of example 82 and 83 wherein one multitude of user interfaces to interacting with work/office based utilities on a display screen; such interfaces including (but not limited to,) visual and turn-able page based user interfaces in the field of paperwork documents, forms, memos and the like; wherein Virtual paper on a screen can be manipulated in terms of but not limited to page turning with the exclusivity of a unique conventional method for turning paperwork based documents and the like in a transitional animated interface (user based). 85. A further method comprising a direct interface object (or equivalent) being achieved as a result of a concurrent flow process including (but not limited) to the following processes systematically:

-   -   A) Word flow diagram     -   B) Accessible storage device or equivalent     -   C) Established interface and established electronic syntax     -   D) Followed by pre-determined logical interface     -   E) Pairing process/phase     -   F) Paired identity of two or more established files/formats,         stored on an electronic device     -   G) Unification process     -   H) Merger phase     -   I) Unified syntax/user interactive navigation system/direct         interface object (end result)     -   J) End result being stored onto the accessible storage device or         equivalent         86. The systems and methods of example 1 to 85 wherein the         present methods comprise direct interface integration systems         and utilization of electronic syntaxes or representations         (equivalents or the like) with unification of electronic         navigation systems and interactive graphical user interfaces.         87. The method of example 86 comprising a novel system and         method for compiling the end result of the present invention         therein.         88. A method comprising direct integration based user controller         interface module/object and utilization of direct interface/s         with touch/(but not limited to) contactless and other associated         communication fields i.e. haptic feedback, nfc (near field         communication) or other communicational processing or the like.         Such implementations could be used for (but not limited to)         manual key entry of uniform resource locators (web addresses)         and the like.         89. A further method of the example 88 comprising direct         communication field processing and associated directly         integrated user controller interface modules along with one or         more associated devices in correspondence to non-biometric (but         not limited to) or other communicational activities of and         between one or more devices.         90. A method of example 89 wherein a predilection of touch         associated communicational fields along with the desired direct         integrated user controller interface module consisting of         touch/non touch sensory methods i.e. using (but not limited to)         finger/s and prominent (or non-prominent) laser dots (or other)         as point and navigational system based and directive utilization         of tools; between (but not limited to) an end user or end users         as well as one or more corresponding devices, thus enabling the         devices to be technologically interactive and also digitally (or         alike) manipulated in relation to the one or more of the end         users' electronic devices with (but not limited to)         communicational based functionalities with adaptive         capabilities. Also the present invention is (and can be) an         alternative means to direct interfacing manipulation of         unconventionally used cursors of an application programming         interface and/or graphical user interfaces along with the         present invention's unified and combined object based interface         modules.         91. A method of example 88, 89, and 90 comprising direct         interface manipulation of electronic devices and interface'         along with associative manual data entry methods for accessing         desired path location on such interfaces i.e. web addresses         (without limitations) and the like; of which can be manipulated         in alternative manners in regards to conventional manual input         entries of data input methods thereof.         92. A method of example 91 comprising relative (or alike)         associative (but not limited to) manual entry of data input         methods using the present invention in regards to such input         methods being fulfilled with alternative methods to pre-existing         and traditionally associative manual input methods; the present         invention further allows end users to directly manipulate a         chosen (or predefined path or location) on an electronic         communicational devices (or other) with such capabilities;         further comprising direct user manipulations being fulfilled in         many different ways. Some examples would include (but not         limited to) using hand based (off screen) gestures (or other) to         manipulate data on the interface based display screen (or other)         and all aspects of a screen; thus allowing the user to         manipulate the screen (or other) itself without limitations;         93. A method of example 92 comprising direct (or other) screen         gestures being perceived and chosen by the end user's         predilection i.e. digital (but not limited to) handwriting,         drawing, scribing, painting (or other) on a screen; such         electronic and virtual writing examples could include (but not         limited to) using comment boxes on i.e. social networks         (messaging/posting messages and comments) based, reviews         (Customer based or the like), writing out search engine queries         on search bars or browser (or the like), digital handwriting of         emails, books (authoring and the like), digital writing         interfaces (or the like), digital signage, digital virtual         selection of lists, digital document writing. Digitally writing         and scribing uniform resource locators; also, predilections         being apparent, when beginning to digitally handwrite (or other)         an address (i.e. URL) or other, into a web browser; preceding         the digital/voice command/writing event (or other); followed by         a visual prompt of logo or representations of the corresponding         i.e. digital handwriting of URL address/location or path         (electronic syntax);

Following this event, the end user/s can choose and select one or more of the visual representations.

94. The method of example 1 and example 2 to 94 comprising implementing the present invention onto a computer device for unification of elemental sequences of syntaxes and graphical user interfaces into a unified syntax direct interface object based contemporary file state comprising:

An established syntax and interface based object or graphical user interface is obtained; a pre-determined logical interface identifies the established GUI and/or syntax and simultaneously identifies an approved visual file format alongside the syntax and user interface/s, the next step involves pairing the two identities;

The identified syntax and established visual property based format go through a pairing process and endure a pairing phase;

Once pairing phase is complete and the identities have been paired; the pair goes through a unification process and concurrently endures a merger phase.

Once the merger phase is complete and the paired identities are unified; the combined syntax or icons/program based files/formats is no longer perceived as a textually defined sequence of elements consisting of characters, numbers, letters and other equivalent values, representations.

The properties and characteristics of the unified syntax or direct interface object are retained and effectively classified as part of the unified syntax or direct interface integration based object (the end result) without limitations.

95. A method comprising interactive client (user) based analytics with tracking data. Further comprising analytical data being stored and accessible directly onto a storage device onto an interface module and analytical modifications via the relative systems. 96. A method comprising utilization of interactive control features and options based on user based analytics based personal data collations. 97. A method comprising hardware based utilization and synchronisation and or transferring processes of one or more software based systems or devices. 98. The method of example 97 wherein one or more synchronised hardware dedicated to this system; with remote based options and utility features. 99. The method of example 61 and 62-69 comprising interactive navigation systems being used for virtual and or online electronic point of sale systems (EPOS); further comprising a plurality of processes relating to virtual epos systems. 100. The method of example 99 wherein consecutive processes of epos systems (virtual based) include (but not limited to) the following interactive checkout based processes of an online purchase via one or more hyper media based digital devices.

The interface and processes are as follows:

-   -   Part A i.e. to make payments, the end user could swipe/tap or         click to checkout based interface/s using one or more biometric         methods.     -   Part B—is a card “processing” based interface whereby the         interface depicts a card based (or alike) object being processed         virtually by an end user's desire to paying and or making a         payment for an online transaction i.e. checking out online or         equivalent.     -   Part C—shows the “making payment” process taking place         electronically via the virtual interface; whereby the payment         being made is achieved using one or more pre-existing and/or         adaptive methods for based on one or more pre-defined merchants         and or its associated accounts relating to the given and or         pre-defined transaction/s based on end user and merchants.     -   Part D—shows the “connecting to merchant” process in which the         payment process between the merchant and or end users can be         established subsequently.     -   Part E—shows the “payment successful” prompting and notification         of the end user/s being perceived and interactively available on         the payment interface.     -   Part F—shows a “check out complete” message being completed on         both front end of users interface as well as the backend of the         payment gateway.     -   Part G—shows the “total amount” paid (total cost of purchase)         and is made apparent to end user via the checkout interface.     -   Part H—represents “thank you” for shopping page within the         checkout interface and could provide end user with a requested         breakdown of purchase (receipt) of which could be saved and or         stored for future preferences also.

These process can therefore be achieved using one or more pre-determined payment gateways; the determinations could be made, Based on the merchants and its affiliations of payment gateways;

101. The method of example 100 comprising a payment based authorisation with set limits can be altered using pin based authorization options or equivalent. 102. A method comprising unique point of sale systems being used in conjunction with embodiments of present invention, in relation to multi-based barcode scanning or equivalent. 103. The method of example 102 wherein the conventional electronic point of sale systems (EPOS), along with checkout service based processes and multi based scanning and the like; of which could be utilized and adopted with the present invention i.e. visual based and integrated facility along with functional reader based interpretation of multiple yet solitary storage of i.e. checkout based inventories, cashiers, supply and demand uses.

Automated tallying multi based detecting system for totalling including facility for combining and totalling a multitude of separate items and/or key entry based values in singular or segmented formats of data input methods.

104. A method comprising a singular interpretation of e-commerce shopping cart/basket/trolley or the like; whereby the combined total of individual payments of one or more purchases or equivalent from one or more merchants are collated and stored and processed, whereby the paying customer need only make one payment and no need for individual payments. 105. The method of example 104 comprising the payment being systematically automated and collated subsequently to one or more merchants involved in the transaction based process. Furthermore, it will be understood that the merchants and the paying customer involved in the transaction will still be able to receive an itinerary breakdown in i.e. the order summary of payments made and received. 106. The method from example 102 to 105 comprising the facility and use with one or more secure payment gateways and/or other payment methods with (but not limited to) the use of SSL encryption or the like, for one or more merchants/vendors or the like. 107. The method of example 104 to 106 comprising biometric point of sale of e-commerce or other; Whereby the customer can biometrically “add to basket” using one or more biometric methods, including making payments by alternative means of clicking and tapping to select and pay for items. 108. A method comprising one basket with single transaction for multiple purchasing. 109. The method of example 108 comprising one basket with single transaction for payment of multiple purchasing. 110. The method of comprising one basket with single transaction based payment for multiple purchasing with one or more vendors or merchants. 111. The method of example 99-110 comprising single transaction based payment for multiple purchasing with one or more vendors or merchants. 112. The method of example 108-111 comprising single transaction for multiple purchasing. 113. The method of example 108-112 comprising multi-purchasing using one payment system. 114. The method of example 113 comprising a system for one payment. 115. The method of example 108-114 comprising multi store purchasing with a single transaction/payment. 116. The method of example 99-115 comprising unification of and integration of products of multiple vendors into a single shopping basket (or equivalent). 117. The method of example 116 comprising present invention also relates to e-commerce-one basket-one payment system. 118. A method comprising a computer based facility which provides the platform for a broad range of retailers and vendors to sell goods in one basket with unique personal shopping experience functionalities using a personal shopper interface and system. Offering a refreshing experience that is utilized to make shopping easy acts as an intermediate between merchant sites and users, under one virtual roof, enabling the user to browse and shop on the many shops/shopping websites. This facility acts as an intermediary between merchant sites and the users to browse and purchase goods or services. Enabling customers to add purchases to just one basket without the need to pay for separate transactions—The ‘one basket payment’ takes the hassle and inconvenience away from the user so that only ‘one basket transaction payment’ is made for multiple purchases. 119. The method of example 118 wherein the one basket/one payment invention, allows the online end user to purchase items or services from the merchant sites shop or business, giving users direct access to multiple shops and businesses where users will be able to find everything they are looking for and then be able to buy directly from the website itself. Also; 120. The method of example 99-117 and example 118 and 119 comprising User's favourite stores and brands will be available to choose from. The first online shopping mall to give you the breadth of retailers and services a customer would need under one roof; simply ‘shopping made easy’. 121. The method of example 1 to 59, 60-69, 70 to 79 and 80 to 120 wherein user is able to directly navigate and or hop from shop to shop and add items to the unique ‘one basket-one payment system; the service may either forward the user's payment information to the merchant's system to enable the merchant to charge the customer, or may charge the user on behalf of the merchant. 

1. A method implemented onto a computer device for unification of elemental sequences of syntaxes and graphical user interfaces into a unified syntax direct interface object based contemporary file state; also, comprising Direct interface integration systems and deployment of electronic syntaxes and/or representations; and unification of electronic navigation systems and transaction based payment systems as well as interactive graphical user interfaces; Further comprising integrated user controller interface modules with data input and manipulation methods and processes.
 2. The method of claim 1, wherein the process has unrestricted use for collective elements found in electronic syntax based textual properties whilst retaining the fundamental properties and characteristics, recognised in the form of text, hypertext, search queries, text hyperlinks, search results, listed results, alphabetical value navigations, number value navigations, bookmarks, suggestions, suggested results, search history, favourites, usernames, passwords, domain names, URLs, tags, bookmarks, IP address, protocols, extension names, phone numbers, stock/share names and prices and all equivalents.
 3. The method of claim 1, comprising the unified syntax or direct interface object properties and characteristics intentions being used in an alternative manner with regards to typing in an unvisited or pre visited location such as a desired network interface, by alternatively interacting with an established unified syntax and direct interface object which corresponds to a desirable location.
 4. The method of claim 2, wherein the mentioned process is not limited to a single technique so that a multitude of systems can be used to achieve an equivalent end result.
 5. The method of claim 3, comprising “interacting” with an established unified syntax and direct interface object is sanctioned from within its own hyper-properties which are formed after or during the unification process.
 6. The method of claim 1, comprising the unified direct interface object being applied onto a desirable computer networked or ungrouped interface.
 7. The method of claim 6, wherein the applied unified direct interface object or other outcome will be observable and claimed as a direct interface integration system or equivalent.
 8. The method of claim 7, comprising the direct interface integration system based object/other being present and obtainable in relation to the end user's predilection.
 9. The method of claim 8, wherein the end user requests the Direct interface object prior to aspiration for accessing a desired page before the interface is presented and obtainable.
 10. The method of claim 9, comprising the direct interface object being apparent on either a page or the frame of a Desktop or web browser when it is desired by the end user.
 11. The method of claim 9, comprising the requests being generated from a variety of techniques regarding Queries.
 12. The method of claim 11, comprising queries not being necessarily limited to a single technique, also, a magnitude of “query” techniques can be used, all of which will result in equivalent results thereof.
 13. The method of claim 12, comprising “query” techniques comprise typing in a letter corresponding to the first letter of a desired syntax based path, typing in the syntaxes path, typing in the host name, clicking on a letter or number corresponding to the first letter or number of a desired Direct interface object or syntax name and so forth.
 14. The method of claim 13, wherein an end user willingly performs one or more “query” techniques using accessible keyboard or mouse hardware as well as speech recognition or touch software associated to a computing device, depending on their predilection, concurrently anticipating the queried technique or techniques on one or more devices.
 15. The method of claim 13, wherein the appearance of one or more corresponding unified syntax or icons being methodically associated with the query string adopted by the concurrent queried technique performed by an end user.
 16. The method of claim 15, comprising the apparent location of corresponding unified syntax and direct interface object varying accordingly yet simultaneously determined by the associated mannerism of an anticipative query i.e. the user types in a word depending on predilection and subsequently location to desired object/path.
 17. The method of claim 16, wherein the outsets of characteristics of an anticipated query is recognised and classified within two main segments; one in a desktop based browser and the other in a desktop environment./virtual environment or other.
 18. The method of claim 17, comprising a static desktop/browser segment being used as an alternate navigation query technique to a path location based address bar.
 19. The method of claim 17, comprising the desktop page and virtual environment segment consisting of a multitude of variable non-static segments situated in a corresponding multitude of static segments/part of.
 20. The method of claim 19, wherein the type of variable segments found on particular virtual environments/desktops will depend on the corresponding electronic documents. 